JP2018021552A - Method for operating undulating diaphragm pump and undulating diaphragm pump operating system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for operating an undulating diaphragm pump and a system for operating an undulating diaphragm pump, which enable the use of an undulating diaphragm pump to be optimized by reducing the energy consumption of the undulating diaphragm pump and increasing the performance thereof.SOLUTION: The present invention relates to a method for operating an undulating diaphragm pump 2 comprising an undulating diaphragm 7 and actuating means 9 of the undulating diaphragm 7 electrically powered according to a given frequency and/or voltage to make the undulating diaphragm 7 oscillate and undulate. The method comprises modifying the electrical supply frequency and/or voltage of the actuating means 9 according to at least one operating parameter, determined in advance, of the undulating diaphragm pump 2.SELECTED DRAWING: Figure 1

Description

  The present invention relates to the technical field of pulsating diaphragm pumps, and more particularly, to an operating method of a pulsating diaphragm pump and an operating system of the pulsating diaphragm pump.

  The present invention can be applied to all fields where pulsating diaphragm pumps are used. For example, in order to discharge waste water stored in a water retention tank of a drainage management system in a vanity in an aircraft, or fuel in an aircraft. It is preferably applied in the aviation field where a pulsating diaphragm pump can be used to circulate the gas.

  Conventionally, a pulsating diaphragm pump is generally known that generally includes a pump body that defines a chamber through which an inlet pipe and an outlet pipe communicate. The pulsating diaphragm pump comprises a pulsating diaphragm that extends within the chamber of the pulsating diaphragm pump, in particular between the lower and upper end plates of the pulsating diaphragm pump and may have a central opening. The pulsating diaphragm pump includes operating means that is powered by a voltage of a predetermined frequency to enable the pulsating diaphragm.

  This actuating means in particular causes the pulsating diaphragm to vibrate and pulsate. Thereby, the pulsating diaphragm can move between the lower end plate and the upper end plate of the pulsating diaphragm pump at a frequency equivalent to the power supply frequency of the operating means.

  When the actuating means is driven by DC power, an inverter is arranged to generate a periodic AC power source with a predetermined frequency.

  Thus, actuated by the actuating means, the pulsating diaphragm, on the one hand, pumps fluid pumped from the inlet tube to the chamber of the pulsating diaphragm pump, and on the other hand drains fluid pumped from the chamber of the pulsating diaphragm pump to the outlet tube. Vibrates and pulsates to propagate through the wavefront.

  This type of pulsating diaphragm pump is completely satisfactory in that maintenance is reduced, it is not affected by the cavitation phenomenon, and it is not affected by the amount or size of the waste or foreign matter that may be present in the pumping fluid. It's a good thing.

  However, the use of known pulsating diaphragm pumps is not optimal. Pulsating diaphragm pumps have room for further improvement, especially in terms of energy consumption and performance.

  Accordingly, one of the objects of the present invention is to provide a method of operating a pulsating diaphragm pump that optimizes the usage of the pulsating diaphragm pump, in particular by reducing the energy consumption of the pulsating diaphragm pump and improving the performance of the pulsating diaphragm pump. The object is to provide an operating system for a pulsating diaphragm pump. Furthermore, instead of or in conjunction with this, it is proposed to improve all of the operating parameters of the pulsating diaphragm pump, in particular depending on the intended application.

  To this end, a method of operating a pulsating diaphragm pump comprising at least one pulsating diaphragm and pulsating diaphragm actuating means that is powered in response to any power supply frequency and / or power supply voltage to vibrate and pulsate the pulsating diaphragm. Was developed.

  According to the invention, the method comprises changing the power supply frequency and / or power supply voltage of the actuating means in response to at least one operating parameter of the pulsating diaphragm pump determined in advance.

  In this way, the pulsating diaphragm pump is operated according to the use situation of the pulsating diaphragm pump in order to change at least one operating parameter of the pulsating diaphragm pump according to the intended application so that the pulsating diaphragm pump operates optimally. The power supply frequency and / or power supply voltage of the means can be changed. For example, the operation of a pulsating diaphragm pump is optimal when energy consumption is minimal while maximizing performance. It may also be possible to operate the pulsating diaphragm pump at a desired operating level by changing the power supply frequency and / or power supply voltage of the pulsating diaphragm actuation means.

  In fact, for effective and high performance, the vibration frequency of the pulsating diaphragm should be comparable to the resonant frequency defined by, for example, the internal characteristics of the pulsating diaphragm pump and the pumping fluid.

  When a pulsating diaphragm pump is incorporated into an aircraft, the vibration frequency of the pulsating diaphragm is determined by the power supply frequency of the aircraft electrical network. However, in practice, it is difficult to manufacture a pulsating diaphragm pump having exactly the same resonance frequency as an arbitrary power supply frequency due to the properties of each part constituting the pulsating diaphragm pump.

  In practice, a resonance frequency different from the desired frequency is generally observed. In such a case, the operation method according to the present invention can be achieved by, for example, changing the power supply frequency and / or power supply voltage of the pulsating diaphragm actuating means so that the vibration frequency of the pulsating diaphragm is pumped as described above. It changes so that the resonance frequency peculiar to the determined pulsation diaphragm may be reached.

Depending on the usage situation of the pulsating diaphragm pump, it may be necessary to verify whether the predetermined parameter reflects the desired usage situation of the pulsating diaphragm pump. According to an example of a specific embodiment of the operating method according to the invention, this operating method comprises:
Determining operating parameters of the pulsating diaphragm pump;
Verifying whether the determined operating parameter has reached a predetermined target value;
Changing the power supply frequency and / or power supply voltage of the actuating means until the determined operating parameter reaches the predetermined target value when the determined operating parameter does not reach the predetermined target value.

  According to a specific embodiment, in the step of verifying whether or not the determined operation parameter has reached a predetermined target value, it is possible to verify whether or not the determined operation parameter is within a predetermined value range Good.

  Since the behavior rule of the determined parameter is not linear, whether or not the determined operation parameter has reached the maximum value or the minimum value in the step of verifying whether or not the determined operation parameter has reached a predetermined target value In order to determine this, the power supply frequency and / or power supply voltage may be continuously increased or decreased to verify whether the determined operating parameter has reached a maximum or minimum value.

  According to another embodiment, the power supply frequency and / or power supply voltage may be varied according to control logic that depends on the determined operating parameters.

  The present invention also relates to an operating system for a pulsating diaphragm pump. The pulsating diaphragm pump operating system comprises in particular a pump comprising a pulsating diaphragm and a pulsating diaphragm actuating means that is powered by a power source in response to any power supply frequency and / or power supply voltage to vibrate and pulsate the pulsating diaphragm. .

  According to the invention, the pulsating diaphragm pump operating system comprises a control unit capable of controlling the operating means according to at least one operating parameter of the pulsating diaphragm pump determined in advance.

  According to a particular embodiment, the control unit comprises a power supply frequency and / or a power supply voltage regulator arranged between the power supply and the actuation means.

  For example, operating parameters such as power supply voltage, power supply frequency, power, etc. may be determined directly by the control unit and may be calculated in particular. However, depending on the operating parameter to be determined, the pulsating diaphragm pump operating system may comprise measuring means capable of transmitting at least one measured value of at least one operating parameter of the pulsating diaphragm pump to the adjusting unit.

  Of course, various features, variations, and / or embodiments of the invention may be combined in various ways as long as they do not contradict each other or are mutually exclusive.

  Similarly, the invention will be better understood and other features and advantages will become apparent upon reading the detailed description including the embodiments provided below by way of example with reference to the accompanying drawings. The accompanying drawings, presented as non-limiting examples, are used to complete the understanding of the invention and the description of the embodiments of the invention, and provide definitions of the invention as appropriate.

1 shows a schematic diagram of an operating system of a pulsating diaphragm pump according to the present invention. FIG. The inside of the pulsation diaphragm pump which concerns on one Embodiment is shown schematically by a side view. The schematic of the operation | movement method of the pulsation diaphragm pump which concerns on this invention is shown.

  It should be noted that throughout the drawings, structural and / or functional elements that are common to the various embodiments are labeled with the same reference numerals. Thus, unless otherwise specified, such elements have the same structural, dimensional, and material elements.

  Referring to FIG. 1, the present invention relates to an operating system 1 of a pulsating diaphragm pump 2 that is optimized for use so as to operate according to actual needs of, for example, a pumping characteristic. Therefore, depending on the intended application, the energy consumption of the pulsating diaphragm pump 2 can be reduced and / or the performance of the pulsating diaphragm pump 2 can be improved and / or the operating parameters of the pulsating diaphragm pump 2 can be improved.

  Referring to FIG. 2 showing an example of an embodiment of a pulsating diaphragm pump 2, the pulsating diaphragm pump 2 includes a pump body 3 that defines a chamber 4 through which an inlet pipe 5 and an outlet pipe 6 communicate. The pulsating diaphragm pump 2 is a pulsating diaphragm 7 that extends into the chamber 4, and particularly includes a disc-shaped pulsating diaphragm 7 having a circular opening 8 at the center thereof. The pulsating diaphragm 7 is obtained, for example, from a silicone elastomer or similar deformable material. Preferably, the pulsating diaphragm 7 is disposed between the lower end plate and the upper end plate.

  The pulsating diaphragm pump 2 includes an operating means 9 that vibrates and pulsates the pulsating diaphragm 7 to enable such a pressure feeding operation.

  The actuating means 9 is powered by a power supply 10 that outputs a predetermined power supply voltage and / or power supply frequency. The actuating means 9 can convert the electrical energy provided by the power source 10 into alternating motion, preferably linear alternating motion. By this alternate motion, the pulsating diaphragm 7 is caused to vibrate and pulsate.

  More specifically, referring to FIG. 2, the pulsating diaphragm 7 is fixed to a movable structure 11 connected to an actuating means 9 in the form of an electromagnet 12 having a movable magnet 13. Therefore, when electric power is supplied to the electromagnet 12 from the power supply 10, the movable magnet 13 vibrates to vibrate the movable structure 11, and thereby the pulsating diaphragm 7 vibrates and pulsates. A wavefront is generated by vibration and pulsation of the pulsating diaphragm 7, and circulation of a fluid pumped through the diaphragm pump 2 is generated. Similarly, the movable structure 11 having a disk shape also serves to protect the pulsating diaphragm 7.

  According to the present invention, referring to FIG. 1, the operating system 1 of the pulsating diaphragm pump 2 includes a control unit 14 such as an electronic computer for acquiring a signal and determining an operating state. The control unit 14 is arranged between the actuating means 9 and the power supply 10. That is, the control unit 14 receives power supply and controls power supply to the operating means 9 of the pulsating diaphragm pump 2.

  The control unit 14 manages the electrical / electronic interface of the pulsating diaphragm pump 2. Furthermore, the control unit 14 can generate an output signal 18, in particular a power signal that can be transmitted to the actuation means 9 of the pulsating diaphragm 7 of the pulsating diaphragm pump 2.

  More precisely, the control unit 14 includes an adjustment unit (adjustment device) 15. The adjusting unit 15 can change and / or adjust the power supply frequency and / or the power supply voltage of the actuating means 9. Preferably, the power supply frequency and / or power supply voltage adjustment unit 15 of the actuating means 9 is configured by software and / or optional programmable logic circuitry. The adjusting unit 15 receives on the input side an input signal 19, for example 400 Hz, for example from an aircraft electrical network, in particular a power supply input voltage and / or an input frequency. The adjusting unit 15 outputs, as an output, an output signal 18 supplied to the actuating means 9 of the pulsating diaphragm 7, particularly an output frequency and / or output voltage, preferably an adjusted output frequency and / or output voltage. The adjusting unit 15 adjusts the power supply frequency and / or the power supply voltage of the actuating means 9 according to at least one predetermined operation parameter measured or calculated in advance of the pulsating diaphragm pump 2.

  For example, the adjusting unit 15 may change the power supply frequency and / or the power supply voltage of the actuating means 9 according to one or more determined target values that one or more determined operating parameters should reach. Instead of this, or together with this, the adjustment unit 15 can change the power supply frequency and / or the power supply voltage according to the allowable value range in which the measured or calculated parameter should be. The adjusting unit 15 may adjust the power supply frequency and / or the power supply voltage so as to comply with the control logic.

  In the example of the illustrated embodiment, the input voltage output from the power supply 10 is a direct current. Thus, the control unit 14 may include a DC / AC inverter 16 to generate a periodic AC output voltage that is supplied to the actuation means 9 of the pulsating diaphragm 7.

  According to a particular embodiment, the measuring means 17 are also connected to the adjusting unit 15, possibly a DC / AC inverter 16, or directly to the pulsating diaphragm pump 2. The measuring means 17 can measure not only the operating parameters of the pulsating diaphragm pump 2 but also the output signal 18 of the adjusting unit 15 and / or the DC / AC inverter 16. Thereby, the control unit 14 can compare the output signal 18 with the input signal 19, particularly in the adjustment unit 15. The measuring means 17 may be of a different type depending on the parameter to be measured. The measurement means 17 can include sensors such as a pressure sensor, a flow rate sensor, and a temperature sensor, for example.

  Referring to FIG. 3, during the operation of the operation system 1 of the pulsating diaphragm pump 2 according to the present invention, in the determination step A, the control unit 14 calculates or measures at least one operation parameter of the pulsating diaphragm pump 2. Measure. If several operating parameters are measured or calculated, these may be handled individually or in combination.

As an example, the measured or calculated operating parameter is
The voltage and / or current applied to the actuating means 9;
A phase shift between the power supply current applied to the actuating means 9 and the power supply voltage,
-The output power of the pulsating diaphragm pump 2,
-Power consumption of the pulsating diaphragm pump 2,
-The output pressure of the pulsating diaphragm pump 2,
Or it can include any other operating parameters such as temperature, pressure, flow rate, performance, etc.

  In the information transmission step, the control unit 14 or the measurement unit 17 transmits the calculated or measured operation parameter value to the adjustment unit 15.

  In the verification step B, the adjustment unit 15 performs verification to determine whether or not one or a plurality of measured operation parameters have reached respective predetermined target values.

  The one or more predetermined target values may be of different types. As an example, the predetermined target value may be a number of targets that define whether one of the measured or calculated operating parameters has reached a certain value, or in particular a range of acceptable values for the measured or calculated operating parameters. It may be a value for verifying whether or not the value has been reached.

  When the result of this determination is negative, that is, when the adjustment unit 15 determines that the measured or calculated operation parameter has not reached the predetermined target value, in the adaptation step C, the adjustment unit 15 receives the input signal 19. In particular, the power supply frequency and / or power supply voltage of the actuating means 9 is varied. Then, a new operation parameter is measured or calculated according to the above-described measurement or calculation step A, and new verification is performed according to the above-described verification step B.

  While the vibration frequency of the pulsating diaphragm 7 affects the flow rate of the pulsating diaphragm pump 2, the power supply voltage affects the vibration amplitude of the pulsating diaphragm 7, so that the output of the pulsating diaphragm pump 2 can be changed by the power supply voltage. it can. The flow rate and operation output of the pulsating diaphragm pump 2 are not constant. Therefore, the present invention can optimize the operation of the pulsating diaphragm pump 2 so that the pulsating diaphragm pump 2 always functions in an optimal state.

  Therefore, according to the present invention, the operation of the pulsating diaphragm pump 2 can be optimized by adjusting the power supply to the pulsating diaphragm pump 2 according to the actual needs and the intended application. A method and an operating system 1 of a pulsating diaphragm pump 2 are provided.

  Thus, the present invention can adjust the energy consumption of the pulsating diaphragm pump 2 and optimize the performance and any parameters that can be calculated or measured.

  It will be clear that the invention is not limited to the embodiments described above which are given by way of example only. The present invention includes various modifications, alternatives, and other variations that may occur to those skilled in the art within the scope of the present invention, and in particular all combinations of the various operating aspects described above, either separately or Can be used as a combination.

Claims (12)

Method of operating a pulsating diaphragm pump (2), wherein the pulsating diaphragm pump (2) is supplied with power according to at least one pulsating diaphragm (7) and a given frequency and / or voltage. In the operating method, comprising the actuating means (9) of the pulsating diaphragm (7) for vibrating and pulsating the diaphragm (7),
A pulsating diaphragm pump (2) characterized in that the power supply frequency and / or voltage of the actuating means (9) is changed according to at least one operating parameter of the pulsating diaphragm pump (2) determined in advance. ) How it works. Determining the operating parameters of the pulsating diaphragm pump (2) (A);
Verifying whether the determined operating parameter has reached a predetermined target value (B);
If the determined operating parameter does not reach the predetermined target value, the power supply frequency and / or voltage of the actuating means (9) is changed until the determined operating parameter reaches the predetermined target value. The operation method according to claim 1, further comprising: (C).   The method according to claim 2, wherein the predetermined target value corresponds to a maximum value or a minimum value.   The step (B) of verifying whether or not the determined operation parameter has reached the predetermined target value verifies whether or not the determined operation parameter is within a predetermined value range. The method according to claim 2.   5. The method according to claim 1, wherein the determined operating parameter comprises a voltage and / or current applied to the actuating means (9).   Method according to claim 5, wherein the determined operating parameter consists of a phase shift between the current and the voltage applied to the actuating means (9).   The method according to any one of the preceding claims, wherein the determined operating parameter comprises the output power of the pulsating diaphragm pump (2).   The method according to any one of the preceding claims, wherein the determined operating parameter comprises the power consumption of the pulsating diaphragm pump (2).   9. A method according to any one of the preceding claims, wherein the determined operating parameter comprises an output pressure of the pulsating diaphragm pump (2). An operating system (1) of a pulsating diaphragm pump (2), wherein the operating system (1) includes a pulsating diaphragm pump (2), and the pulsating diaphragm pump (2) includes a pulsating diaphragm (7), Actuating means (9) of the pulsating diaphragm (7) powered by a power supply (10) according to a given frequency and / or voltage to vibrate and pulsate the pulsating diaphragm (7) In system (1),
A pulsating diaphragm pump (2) comprising a control unit (14) capable of controlling the actuating means (9) according to at least one operating parameter of the pulsating diaphragm pump (2) determined in advance. Operating system.   System according to claim 10, wherein the control unit (14) comprises a power supply frequency and / or voltage regulating means (15) arranged between the power source (10) and the actuating means (9).   12. System according to claim 11, comprising measuring means (17) capable of transmitting at least one measured value of at least one operating parameter of the pulsating diaphragm pump (2) to the adjusting part (15).